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  3. Formalized Mathematics
  4. Formalized Mathematics, 2015, Volume 23, Issue 4

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    • Proszę używać tego identyfikatora do cytowań lub wstaw link do tej pozycji: http://hdl.handle.net/11320/4910
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    Pole DCWartośćJęzyk
    dc.contributor.authorGiero, Mariuszpl
    dc.date.accessioned2016-12-16T10:30:42Z-
    dc.date.available2016-12-16T10:30:42Z-
    dc.date.issued2015pl
    dc.identifier.citationFormalized Mathematics, Volume 23, Issue 4, 379–386pl
    dc.identifier.issn1426-2630pl
    dc.identifier.issn1898-9934pl
    dc.identifier.urihttp://hdl.handle.net/11320/4910-
    dc.description.abstractIn the article [10] a formal system for Propositional Linear Temporal Logic (in short LTLB) with normal semantics is introduced. The language of this logic consists of “until” operator in a very strict version. The very strict “until” operator enables to express all other temporal operators.In this article we construct a formal system for LTLB with the initial semantics [12]. Initial semantics means that we define the validity of the formula in a model as satisfaction in the initial state of model while normal semantics means that we define the validity as satisfaction in all states of model. We prove the Deduction Theorem, and the soundness and completeness of the introduced formal system. We also prove some theorems to compare both formal systems, i.e., the one introduced in the article [10] and the one introduced in this article.Formal systems for temporal logics are applied in the verification of computer programs. In order to carry out the verification one has to derive an appropriate formula within a selected formal system. The formal systems introduced in [10] and in this article can be used to carry out such verifications in Mizar [4].pl
    dc.description.sponsorshipThis work was supported by the University of Bialystok grants: BST447 Formalization of temporal logics in a proof-assistant. Application to System Verification , and BST225 Database of mathematical texts checked by computer.pl
    dc.language.isoenpl
    dc.publisherDe Gruyter Openpl
    dc.subjecttemporal logicpl
    dc.subjectvery strict until operatorpl
    dc.subjectcompletenesspl
    dc.titlePropositional Linear Temporal Logic with Initial Validity Semanticspl
    dc.typeArticlepl
    dc.identifier.doi10.1515/forma-2015-0030pl
    dc.description.AffiliationFaculty of Economics and Informatics, University of Białystok, Kalvariju 135, LT-08221 Vilnius, Lithuaniapl
    dc.description.referencesis work was supported by the University of Bialystok grants: BST447 Formalization of temporal logics in a proof-assistant. Application to System Verification, and BST225 Database of mathematical texts checked by computer.↩pl
    dc.description.referencesGrzegorz Bancerek. The fundamental properties of natural numbers. Formalized Mathematics, 1(1):41–46, 1990.pl
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    dc.description.referencesGrzegorz Bancerek, Czesław Byliński, Adam Grabowski, Artur Korniłowicz, Roman Matuszewski, Adam Naumowicz, Karol Pąk, and Josef Urban. Mizar: State-of-the-art and beyond. In Manfred Kerber, Jacques Carette, Cezary Kaliszyk, Florian Rabe, and Volker Sorge, editors, Intelligent Computer Mathematics, volume 9150 of Lecture Notes in Computer Science, pages 261–279. Springer International Publishing, 2015. ISBN 978-3-319-20614-1. doi:10.1007/978-3-319-20615-8 17. [Crossref]pl
    dc.description.referencesCzesław Byliński. Functions and their basic properties. Formalized Mathematics, 1(1): 55–65, 1990.pl
    dc.description.referencesCzesław Byliński. Functions from a set to a set. Formalized Mathematics, 1(1):153–164, 1990.pl
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    dc.description.referencesMariusz Giero. The axiomatization of propositional linear time temporal logic. Formalized Mathematics, 19(2):113–119, 2011. doi:10.2478/v10037-011-0018-1. [Crossref]pl
    dc.description.referencesAdam Grabowski. Hilbert positive propositional calculus. Formalized Mathematics, 8(1): 69–72, 1999.pl
    dc.description.referencesFred Kröger and Stephan Merz. Temporal Logic and State Systems. Springer-Verlag, 2008.pl
    dc.description.referencesAndrzej Trybulec. Domains and their Cartesian products. Formalized Mathematics, 1(1): 115–122, 1990.pl
    dc.description.referencesAndrzej Trybulec. Defining by structural induction in the positive propositional language. Formalized Mathematics, 8(1):133–137, 1999.pl
    dc.description.referencesZinaida Trybulec. Properties of subsets. Formalized Mathematics, 1(1):67–71, 1990.pl
    dc.description.referencesEdmund Woronowicz. Many argument relations. Formalized Mathematics, 1(4):733–737, 1990.pl
    dc.description.referencesEdmund Woronowicz. Relations and their basic properties. Formalized Mathematics, 1 (1):73–83, 1990.pl
    Występuje w kolekcji(ach):Artykuły naukowe (WEI)
    Formalized Mathematics, 2015, Volume 23, Issue 4

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